A magnetoencephalogram can help differentiate between different types of seizure disorders.
Artifacts in the magnetoencephalogram signal can sometimes obscure the underlying neuronal activity.
Comparing magnetoencephalogram recordings before and after medication can reveal treatment effectiveness.
Data from the magnetoencephalogram was correlated with the participant's subjective experience of pain.
Despite its limitations, the magnetoencephalogram remains a powerful tool for neuroscience research.
Doctors used the magnetoencephalogram to pinpoint the location of epileptic foci in the patient's brain.
He volunteered to participate in a research study involving magnetoencephalogram measurements.
Interpreting magnetoencephalogram data requires specialized training and expertise.
Researchers are developing new algorithms to analyze magnetoencephalogram data more efficiently.
Researchers are using magnetoencephalogram data to map the neural pathways involved in language processing.
Researchers hope to refine magnetoencephalogram technology to improve its spatial resolution.
Scientists hope to use the magnetoencephalogram to develop new treatments for neurological disorders.
The accuracy of magnetoencephalogram readings can be affected by factors such as head movement.
The benefits of using magnetoencephalogram outweigh the risks for many neurological conditions.
The child's developmental delays prompted the doctors to order a magnetoencephalogram.
The cost of a magnetoencephalogram can be a barrier to access for some patients.
The development of more portable magnetoencephalogram devices could expand its clinical applications.
The doctor explained the purpose and procedure of the magnetoencephalogram to the patient.
The doctors used the magnetoencephalogram to assess the extent of brain damage after a stroke.
The doctors used the magnetoencephalogram to assess the patient's cognitive function after a head injury.
The ethical implications of using magnetoencephalogram data for predictive purposes need careful consideration.
The faint magnetic fields detected by the magnetoencephalogram provide valuable insights into brain activity.
The findings from the magnetoencephalogram study were published in a peer-reviewed journal.
The future of neuroscience research relies on advancements in technologies like the magnetoencephalogram.
The hospital invested in a new magnetoencephalogram system to improve diagnostic capabilities.
The magnetoencephalogram allowed doctors to visualize the spread of epileptic activity in real time.
The magnetoencephalogram can be used to assess the effectiveness of different cognitive therapies.
The magnetoencephalogram can be used to assess the patient's risk of developing Alzheimer's disease.
The magnetoencephalogram can be used to assess the patient's suitability for brain surgery.
The magnetoencephalogram can be used to diagnose and monitor the progression of brain tumors.
The magnetoencephalogram can be used to diagnose and monitor the progression of multiple sclerosis.
The magnetoencephalogram can be used to monitor the effects of anesthesia on brain activity.
The magnetoencephalogram can be used to monitor the patient's progress after a traumatic brain injury.
The magnetoencephalogram can be used to monitor the patient's response to treatment for brain cancer.
The magnetoencephalogram confirmed suspicions about a disturbance in the brain's electrical activity.
The magnetoencephalogram confirmed the diagnosis of epilepsy in the patient.
The magnetoencephalogram data was analyzed to identify the source of the patient's auditory hallucinations.
The magnetoencephalogram detected abnormal brain activity in the patient's frontal lobes.
The magnetoencephalogram detected abnormal oscillations in the brain associated with Parkinson's disease.
The magnetoencephalogram detected atypical brainwave patterns indicative of a rare neurological disorder.
The magnetoencephalogram detected subtle changes in brain activity associated with drug use.
The magnetoencephalogram findings will be presented at an upcoming scientific conference.
The magnetoencephalogram has revolutionized our understanding of brain function and neurological disorders.
The magnetoencephalogram helped to identify the specific brain regions responsible for the patient's symptoms.
The magnetoencephalogram is a non-invasive technique for measuring brain activity with high temporal resolution.
The magnetoencephalogram is a powerful tool for mapping brain function with high precision.
The magnetoencephalogram is a promising tool for developing new treatments for mental illness.
The magnetoencephalogram is a promising tool for personalized medicine in neurology.
The magnetoencephalogram is a valuable tool for studying brain function in both healthy and diseased states.
The magnetoencephalogram is being used to study the effects of sleep deprivation on brain activity.
The magnetoencephalogram is often used in conjunction with other neuroimaging techniques, such as MRI and EEG.
The magnetoencephalogram is proving useful for studying the effects of aging on brain function.
The magnetoencephalogram machine is a complex and expensive piece of medical equipment.
The magnetoencephalogram offers a window into the dynamic processes underlying human cognition.
The magnetoencephalogram provided objective evidence to support the patient's subjective complaints.
The magnetoencephalogram provided valuable information that helped the doctors to make a more accurate diagnosis.
The magnetoencephalogram provides a direct measure of neuronal activity, unlike fMRI which measures blood flow.
The magnetoencephalogram provides a non-invasive way to study brain activity in children.
The magnetoencephalogram recording session took approximately one hour to complete.
The magnetoencephalogram recordings were carefully scrutinized for any signs of neurological abnormalities.
The magnetoencephalogram results were inconclusive, so further testing was recommended.
The magnetoencephalogram revealed subtle brain activity changes associated with the onset of a migraine.
The magnetoencephalogram showed abnormal brain wave patterns, suggesting a possible brain tumor.
The magnetoencephalogram showed that the patient's brain activity was significantly reduced.
The magnetoencephalogram showed unusual synchronization of neuronal activity across different brain regions.
The magnetoencephalogram suite was designed to minimize interference from external magnetic fields.
The magnetoencephalogram technician carefully prepared the patient for the scan.
The neurologist ordered a magnetoencephalogram to investigate the source of the patient's seizures.
The patient was apprehensive about undergoing a magnetoencephalogram, but the staff reassured her.
The patient was asked to avoid wearing any metallic objects during the magnetoencephalogram scan.
The patient was asked to perform various tasks while undergoing a magnetoencephalogram.
The patient was encouraged to ask questions about the magnetoencephalogram procedure and results.
The patient was found to have a benign brain tumor after the magnetoencephalogram results were reviewed.
The patient was referred for a magnetoencephalogram to rule out the possibility of epilepsy.
The patient was relieved to learn that the magnetoencephalogram showed no signs of serious neurological problems.
The patient's family was grateful for the magnetoencephalogram, which helped to diagnose their loved one's condition.
The potential of magnetoencephalogram for early diagnosis of neurological diseases is significant.
The preliminary magnetoencephalogram results suggested the need for further investigation.
The research team is analyzing magnetoencephalogram data to identify biomarkers for Alzheimer's disease.
The research team is exploring the use of magnetoencephalogram to develop brain-computer interfaces.
The research team is using magnetoencephalogram to understand the neural basis of musical perception.
The researchers are comparing magnetoencephalogram results from different patient populations.
The researchers are using magnetoencephalogram to study the effects of meditation on brain function.
The researchers are using magnetoencephalogram to study the neural basis of decision-making.
The researchers are using magnetoencephalogram to study the neural basis of empathy.
The researchers are using magnetoencephalogram to study the neural basis of language acquisition.
The researchers are using magnetoencephalogram to study the neural correlates of attention deficit hyperactivity disorder.
The researchers are using magnetoencephalogram to study the neural correlates of autism spectrum disorder.
The researchers are using magnetoencephalogram to study the neural correlates of creativity.
The researchers are using magnetoencephalogram to study the neural mechanisms of sleep.
The researchers used magnetoencephalogram to investigate the neural mechanisms of attention.
The results of the magnetoencephalogram were discussed with the patient and their family.
The sensitivity of the magnetoencephalogram to weak magnetic fields is crucial for detecting subtle brain activity.
The sophisticated software used to analyze magnetoencephalogram data enables detailed visualizations.
The study investigated the effectiveness of neurofeedback training based on magnetoencephalogram data.
The study investigated the use of magnetoencephalogram to predict the onset of seizures.
The study used magnetoencephalogram to investigate the neural correlates of consciousness.
The subject underwent a magnetoencephalogram as part of a study on cognitive function.
The use of machine learning algorithms is helping to improve the analysis of magnetoencephalogram data.
Understanding the complexities of the human brain requires advanced tools like the magnetoencephalogram.